/* * Copyright (C) 2006 the xine project * * This file is part of xine, a free video player. * * xine is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * xine is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA * * True Audio demuxer by Diego Pettenò * Inspired by tta libavformat demuxer by Alex Beregszaszi * * Seek + time support added by Kelvie Wong */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #define LOG_MODULE "demux_tta" #define LOG_VERBOSE // This is from the TTA spec, the length (in seconds) of a frame // http://www.true-audio.com/TTA_Lossless_Audio_Codec_-_Format_Description #define FRAME_TIME 1.04489795918367346939 #include "xine_internal.h" #include "xineutils.h" #include "demux.h" #include "buffer.h" #include "bswap.h" #include "group_audio.h" typedef struct { demux_plugin_t demux_plugin; xine_stream_t *stream; fifo_buffer_t *video_fifo; fifo_buffer_t *audio_fifo; input_plugin_t *input; uint32_t *seektable; uint32_t totalframes; uint32_t currentframe; off_t datastart; int status; union { struct tta_header { uint32_t signature; /* TTA1 */ uint16_t flags; /* Skipped */ uint16_t channels; uint16_t bits_per_sample; uint32_t samplerate; uint32_t data_length; /* Number of samples */ uint32_t crc32; } XINE_PACKED tta; uint8_t buffer[22]; /* This is the size of the header */ } header; } demux_tta_t; typedef struct { demux_class_t demux_class; } demux_tta_class_t; #define FOURCC_32(a, b, c, d) (d + (c<<8) + (b<<16) + (a<<24)) static int open_tta_file(demux_tta_t *this) { uint8_t peek[4]; uint32_t framelen; if (_x_demux_read_header(this->input, peek, 4) != 4) return 0; if ( !_x_is_fourcc(peek, "TTA1") ) return 0; if ( this->input->read(this->input, this->header.buffer, sizeof(this->header)) != sizeof(this->header) ) return 0; framelen = (uint32_t)(FRAME_TIME * le2me_32(this->header.tta.samplerate)); this->totalframes = le2me_32(this->header.tta.data_length) / framelen + ((le2me_32(this->header.tta.data_length) % framelen) ? 1 : 0); this->currentframe = 0; if(this->totalframes >= UINT_MAX/sizeof(uint32_t)) { xprintf(this->stream->xine, XINE_VERBOSITY_DEBUG, _("demux_tta: total frames count too high\n")); return 0; } this->seektable = calloc(this->totalframes, sizeof(uint32_t)); this->input->read(this->input, this->seektable, sizeof(uint32_t)*this->totalframes); /* Skip the CRC32 */ this->input->seek(this->input, 4, SEEK_CUR); /* Store the offset after the header for seeking */ this->datastart = this->input->get_current_pos(this->input); return 1; } static int demux_tta_send_chunk(demux_plugin_t *this_gen) { demux_tta_t *this = (demux_tta_t *) this_gen; uint32_t bytes_to_read; if ( this->currentframe >= this->totalframes ) { this->status = DEMUX_FINISHED; return this->status; } bytes_to_read = le2me_32(this->seektable[this->currentframe]); _x_demux_read_send_data(this->audio_fifo, this->input, bytes_to_read, (int64_t)(FRAME_TIME * this->currentframe * 90000), BUF_AUDIO_TTA, /*decoder_flags*/ 0, (int) ((double) this->currentframe * 65535.0 / this->totalframes), (int)(FRAME_TIME * this->currentframe * 1000), (int)(le2me_32(this->header.tta.data_length) * 1000.0 / le2me_32(this->header.tta.samplerate)), this->currentframe); this->currentframe++; return this->status; } static void demux_tta_send_headers(demux_plugin_t *this_gen) { demux_tta_t *this = (demux_tta_t *) this_gen; buf_element_t *buf; xine_waveformatex wave; uint32_t total_size = sizeof(xine_waveformatex) + sizeof(this->header) + sizeof(uint32_t)*this->totalframes; unsigned char *header; header = malloc(total_size); this->audio_fifo = this->stream->audio_fifo; this->status = DEMUX_OK; _x_stream_info_set(this->stream, XINE_STREAM_INFO_HAS_VIDEO, 0); _x_stream_info_set(this->stream, XINE_STREAM_INFO_HAS_AUDIO, 1); _x_stream_info_set(this->stream, XINE_STREAM_INFO_AUDIO_CHANNELS, le2me_16(this->header.tta.channels)); _x_stream_info_set(this->stream, XINE_STREAM_INFO_AUDIO_SAMPLERATE, le2me_32(this->header.tta.samplerate)); _x_stream_info_set(this->stream, XINE_STREAM_INFO_AUDIO_BITS, le2me_16(this->header.tta.bits_per_sample)); /* send start buffers */ _x_demux_control_start(this->stream); /* create header */ wave.cbSize = total_size - sizeof(xine_waveformatex); memcpy(header, &wave, sizeof(wave)); memcpy(header+sizeof(xine_waveformatex), this->header.buffer, sizeof(this->header)); memcpy(header+sizeof(xine_waveformatex)+sizeof(this->header), this->seektable, sizeof(uint32_t)*this->totalframes); /* send init info to decoders */ if (this->audio_fifo) { uint32_t bytes_left = total_size; /* We are sending the seektable as well, and this may be larger than buf->max_size */ while (bytes_left) { buf = this->audio_fifo->buffer_pool_alloc (this->audio_fifo); buf->decoder_flags = BUF_FLAG_HEADER|BUF_FLAG_STDHEADER; buf->type = BUF_AUDIO_TTA; /* Copy min(bytes_left, max_size) bytes */ buf->size = bytes_left < buf->max_size ? bytes_left : buf->max_size; memcpy(buf->content, header+(total_size-bytes_left), buf->size); bytes_left -= buf->size; /* The decoder information only needs the decoder information on the last buffer element. */ if (!bytes_left) { buf->decoder_flags |= BUF_FLAG_FRAME_END; buf->decoder_info[0] = 0; buf->decoder_info[1] = le2me_32(this->header.tta.samplerate); buf->decoder_info[2] = le2me_16(this->header.tta.bits_per_sample); buf->decoder_info[3] = le2me_16(this->header.tta.channels); } this->audio_fifo->put (this->audio_fifo, buf); } } free(header); } static int demux_tta_seek (demux_plugin_t *this_gen, off_t start_pos, int start_time, int playing) { demux_tta_t *this = (demux_tta_t *) this_gen; uint32_t start_frame; uint32_t frame_index; int64_t pts; off_t start_off = this->datastart; /* if thread is not running, initialize demuxer */ if( !playing ) { /* send new pts */ _x_demux_control_newpts(this->stream, 0, 0); this->status = DEMUX_OK; } else { /* Get the starting frame */ if( start_pos ) { pts = start_pos * le2me_32(this->header.tta.data_length) * 1000.0 / le2me_32(this->header.tta.samplerate) * 90 / 65535; start_frame = start_pos * this->totalframes / 65535; } else { pts = start_time * 90; start_frame = (uint32_t)((double)start_time/ 1000.0 / FRAME_TIME); } /* Now we find the offset */ for( frame_index = 0; frame_index < start_frame; frame_index++ ) start_off += le2me_32(this->seektable[frame_index]); /* Let's seek! We store the current frame internally, so let's update that * as well */ _x_demux_flush_engine(this->stream); this->input->seek(this->input, start_off, SEEK_SET); this->currentframe = start_frame; _x_demux_control_newpts(this->stream, pts, BUF_FLAG_SEEK); this->status = DEMUX_OK; } return this->status; } static void demux_tta_dispose (demux_plugin_t *this_gen) { demux_tta_t *this = (demux_tta_t *) this_gen; free(this->seektable); free(this); } static int demux_tta_get_status (demux_plugin_t *this_gen) { demux_tta_t *this = (demux_tta_t *) this_gen; return this->status; } static int demux_tta_get_stream_length (demux_plugin_t *this_gen) { demux_tta_t *this = (demux_tta_t *) this_gen; return le2me_32(this->header.tta.data_length) * 1000.0 / le2me_32(this->header.tta.samplerate); /* milliseconds */ } static uint32_t demux_tta_get_capabilities(demux_plugin_t *this_gen) { return DEMUX_CAP_NOCAP; } static int demux_tta_get_optional_data(demux_plugin_t *this_gen, void *data, int data_type) { return DEMUX_OPTIONAL_UNSUPPORTED; } static demux_plugin_t *open_plugin (demux_class_t *class_gen, xine_stream_t *stream, input_plugin_t *input) { demux_tta_t *this; this = calloc(1, sizeof(demux_tta_t)); this->stream = stream; this->input = input; this->demux_plugin.send_headers = demux_tta_send_headers; this->demux_plugin.send_chunk = demux_tta_send_chunk; this->demux_plugin.seek = demux_tta_seek; this->demux_plugin.dispose = demux_tta_dispose; this->demux_plugin.get_status = demux_tta_get_status; this->demux_plugin.get_stream_length = demux_tta_get_stream_length; this->demux_plugin.get_capabilities = demux_tta_get_capabilities; this->demux_plugin.get_optional_data = demux_tta_get_optional_data; this->demux_plugin.demux_class = class_gen; this->status = DEMUX_FINISHED; this->seektable = NULL; switch (stream->content_detection_method) { case METHOD_BY_EXTENSION: { const char *extensions, *mrl; mrl = input->get_mrl (input); extensions = class_gen->get_extensions (class_gen); if (!_x_demux_check_extension (mrl, extensions)) { free (this); return NULL; } } /* Falling through is intended */ case METHOD_BY_CONTENT: case METHOD_EXPLICIT: if (!open_tta_file(this)) { free (this); return NULL; } break; default: free (this); return NULL; } return &this->demux_plugin; } static const char *get_description (demux_class_t *this_gen) { return "True Audio demux plugin"; } static const char *get_identifier (demux_class_t *this_gen) { return "True Audio"; } static const char *get_extensions (demux_class_t *this_gen) { return "tta"; } static const char *get_mimetypes (demux_class_t *this_gen) { return "audio/x-tta: tta: True Audio;" "audio/tta: tta: True Audio;"; } static void class_dispose (demux_class_t *this_gen) { demux_tta_class_t *this = (demux_tta_class_t *) this_gen; free (this); } void *demux_tta_init_plugin (xine_t *xine, void *data) { demux_tta_class_t *this; this = calloc(1, sizeof(demux_tta_class_t)); this->demux_class.open_plugin = open_plugin; this->demux_class.get_description = get_description; this->demux_class.get_identifier = get_identifier; this->demux_class.get_mimetypes = get_mimetypes; this->demux_class.get_extensions = get_extensions; this->demux_class.dispose = class_dispose; return this; }